did the optics industry blunder by switching intra
TRANSCRIPT
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Did the Optics Industry Blunder by Switching Intra-Datacenter Links from NRZ to PAM4?
Will More DSP like PAM6 and Coherent Follow,
or Will WDM and Parallel Save the Day?
Chris Cole
OFC Rump Session
June 9, 2021
Start
6:00 – 6:05
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• WDM & DSP Team Captains (Chris & Ilya, respectively) organize the Rump Session
• They start the Session with introductory presentations
• Followed by presentations by four WDM vs. DSP Team Provocateur Matched Pairs
• Presentations (50% time) are followed by vigorous audience participation (50% time)
o tough questions
o insightful comments
o different perspectives
• Do not be shy, long-winded, and make any corporate pitches (you will be cut-off)
• Do challenge the Provocateurs and each other, and be entertained
• On behalf of the Provocateurs, the Captains greet you:
o Moritūrī tē Salūtant (those who are about to die salute you)
WDM vs. DSP Team Format Maximizes Your Entertainment
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Provocateur Matched Pair Example
Murmillo Tracio
Colosseum
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Triumphant Provocateur
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Vanquished Provocateur
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Agenda
WDM Team DSP Team
RolePPTStart
Q&AStart
Name Affiliation RolePPTStart
Q&AStart
Name Affiliation
Editor 6:05 6:15ChrisCole
II-VI(Adviser)
Suma Rudis 6:20 6:30IlyaLyubomirsky
Marvell
Secutor 6:35 6:40BorisMurmann
StanfordUniversity
Reciario 6:45 6:50DanSadot
Ben Gurion University
Murmillo 6:55 7:00ShigeruKanazawa
NTT Tracio 7:05 7:10XiangZhou
Provocator 7:15 7:20PeterWinzer
NubisComm.
Scissor 7:25 7:30HenrySun
Infinera
Hoplomaco 7:35 7:40Chris Pfistner
AvicenaTech
Equite 7:45 7:50YiCai
SoochowUniversity
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• NRZ was used on all 25G and lower speed λs
• 1G λs : 1GbE
• 10G λs: 10GbE, 40GbE
• 25G λs: 25GbE, 100GbE
• IEEE chose PAM4 modulation for 50G copper lanes in 2012
• NRZ vs. PAM4 50G λs debate started in IEEE in 2012
• 200GbE & 400GbE project
• PAM4 25Gbaud adopted in 2015
• Enabled reuse of 50G PAM4 SerDes technology in development for ASICs
• Enabled reuse of 25G λs tech. (25Gbaud) for perceived quicker time to market
Optical Datacom NRZ vs. PAM4 Debate
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Shannon-Hartley Theorem (from Cole IEEE 802.3bs, 12 Mar 2015, p.3)
C = B log2 (1 + S/N)
C ≜ Channel capacity
B ≜ Bandwidth
S ≜ Signal Power
N ≜ Noise Power
Guidance to increase C:
• If B limited, increase S/N to support higher order modulation (HOM)
• If S/N limited, increase B to support higher Baud rate
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Channel Loss & TRX S/N (from Cole IEEE 802.3bs, 12 Mar 2015, p.4,5)
SMF Client Loss (electrical dB)
Cu Chip-to-Chip Loss (max)
S/Nno FEC
BTB
Limitation Modu-lationGuide
Channel
BTRXS/N
SMFTRX
No Yes NRZ
CuSerDes
Yes No HOM
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Component Bandwidth & VEC (from Cole IEEE 802.3bs, 12 Mar 2015, p.7-11)
VEC improves with component bandwidth (B) which increases over time.
NRZ (w /1dB offset)
PAM-4 (middle eye)
S/N (BTB)SMF TRX
noise penalty offsets VEC by ~1dB (BNRZ/BPAM-4 dependent)
α = B / bit-rateTime
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Discussion (from Cole IEEE 802.3bs, 12 Mar 2015, p.20)
• For SMF client interfaces, NRZ is the preferred choice if feasible, because it has the highest optics margin
• If not feasible, Parallel, WDM, or HOM, separately or in combination are required
• As component bandwidth increases with time, NRZ optics margin improves the most which drives down cost
(ex. 10G Serial NRZ optics)
• HOM (ex. PAM-4) permanently locks in S/N penalty limiting optics margin improvement, even as component bandwidth increases
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Ethernet Annual Port Shipments (from Cole IEEE 802.3 SG, 20 March 2020, p.3)
10GBaud 25GBaud 50GBaud
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Did the Optics Industry Blunder by Switching from NRZ to PAM4?
• It sure did!
• 25GBaud PAM4 reduced the cost & time to market of initial low-volume shipments
• Predictably optical component bandwidth increased over time
• 50GBaud technology matured and is now shipping
• 25Gbaud PAM4 optics are ramping to millions of ports
• 50Gbaud NRZ optics, if adopted, would instead be ramping to millions of ports
• PAM4 3dB SNR penalty is permanently locked-in
• Significant power and cost penalty is there for the lifetime of 25Gbaud PAM4 optics
• The views expressed in this presentation are the author’s and do not represent a formal position by II-VI Incorporated.
Q&A
6:15 – 6:20
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The Tao of DSP
Ilya Lyubomirsky
Marvell Technology
OFC Rump Session
June 9, 2021
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“The Tao that can be told is not the eternal Tao. The name that can be named is not the eternal name. The nameless is the beginning of heaven and earth.”
Shannon’s geometrical proof of channel capacity
does not name any specific modulation format
or error control code! Ultimate channel capacity is
achieved by exploiting all the available communication
dimensions – infinite dimension in Shannon’s proof –
resembling a noise-like modulated signal.
The Tao and Shannon Capacity
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DSP enables very flexible and adaptable
equalization able to compensate for many
different impairments
FEC Limit
“All things, including the grass and trees, are soft and pliable in life; dry and brittle in death. Stiffness is a companion of death; flexibility a companion of life.”
200G per Lambda optical system simulations
The Tao of DSP Based Equalization
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▪ Chase soft decoding algorithm▪ Low-complexity, near maximum
likelihood performance
ADC enables soft decision decoding for stronger FEC while keeping low latency and low power.
Stronger FEC enables higher optical loss budget and/or lower cost optics!
“Water is the softest thing, yet it can penetrate mountains and earth. This shows clearly the principle of softness overcoming hardness ”
The Tao of Soft Information
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Because DSP paradigm is in harmony with Nature (Tao)
• DSP equalization is flexible, adaptable, and powerful for compensating analog component and optics impairments resulting in lower cost and more robust solution
• ADC/DSP enables soft decision decoding for stronger FEC without increasing latency resulting in lower cost optics
• DSP can enable any modulation format, system designer can leverage the best modulation technique to fit the physics of the channel
“One who lives in accordance with nature does not go against the way of things but goes in harmony with the present moment.”
Why DSP always wins in the end?
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Agenda
WDM Team DSP Team
AreaPPTStart
Q&AStart
Name Affiliation AreaPPTStart
Q&AStart
Name Affiliation
Yang 6:05 6:15ChrisCole
II-VI(Adviser)
Yin 6:20 6:30IlyaLyubomirsky
Marvell
Qian 6:35 6:40BorisMurmann
StanfordUniversity
Kun 6:45 6:50DanSadot
Ben Gurion University
Zhen 6:55 7:00ShigeruKanazawa
NTT Xun 7:05 7:10XiangZhou
Li 7:15 7:20PeterWinzer
NubisComm.
Kan 7:25 7:30HenrySun
Infinera
Dui 7:35 7:40Chris Pfistner
AvicenaTech
Gen 7:45 7:50YiCai
SoochowUniversity
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DSP always wins in the end
Thank You
Q&A
6:30 – 6:35
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DSP is Dragged Down byAnalog Front End Energy
Boris MurmannOFC Rump Session
WDM TeamJune 9, 2021
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ADCFE
gm C
ID Elementary gain stage(amplifier, equalizer, slicer, etc.)
𝑆𝑁𝑅 ∝𝑘𝑇
𝐶
−1
𝐵𝑊 ∝𝑔𝑚𝐶
𝑃 ∝ 𝐼𝐷 ∝𝑔𝑚
𝑔𝑚/𝐼𝐷∝
𝑔𝑚𝑐𝑜𝑛𝑠𝑡.
𝐸 =𝑃
𝐵𝑊∝ 𝑘𝑇 × 𝑆𝑁𝑅 Energy increases 4x per 6dB (1 bit)
PAM 2 4 8 16
Bit rate 1x 2x 3x 4x
SNR Penalty 0dB 4.8dB 8.5dB 11.8dB
Energy cost 1x 3x 7x 15x
➔ Packing more info into amplitude via PAM comes with superlinear energy cost
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2323
WDM & Parallel
DSP & PAM
WDM Wins!
bit rate
energy/bit
Q&A
6:40 – 6:45
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Dan Sadot
Ben Gurion University, ECE, ISRAEL
OFC Rump Session
DSP Team
June 9, 2021
Beyond PAM4More bits/Baud is Better
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High Order Modulation Reduces Power & Cost
DSP Pre-Distortion• Non-linear + reduced bandwidth compensation → Increases Modulation Swing +
Baud• DAC: enhances resolution → lowers ENOB• ADC: reduces ENOB → lowers power
Benefits• Direct detection:
• High swing (PAM8)• High Baud (100GB)
• Coherent: • DFB lasers (low cost)• High swing (QAM64)• High /Baud (100GB)
JOURNAL OF LIGHTWAVE TECHNOLOGY 3
q(n )3 . Observing a sequence of N digital samples, a path metric
error e(N ) =P N − 1
n = 0 |qef f (n)|2 is computed for each possiblesequence and fed to the hard quantization (HQ) block, whichdecides on the optimal path (optimal quantized values).
SoftQuantization
(SQ)
HardQuantization
(HQ)
Path Metric
x (n) x sq (n) xq (n)
Surviving paths
P N − 1
n = 0 |qef f (n)|2
Fig. 2. DRE block diagram. Each digital sample x(n) is soft-quantized by the SQ block, which transforms digital samples intoa vector of possible quantized values x sq(n) = (ci + 1 , ci , ci − 1 ). Pathmetric block computes the resultant error for each possible SQ andfor the entire sequence. HQ block transforms the SQ vector into asingle digitized value, which corresponds to the optimal path in thetrellis diagram.
One major challenge in this approach is to implementthe DRE while maintain reasonable computation complexity.As the number of channel taps grows, the number of SQpossibilities grow exponentially, therefore, explicit solutionrequire large memory allocation and extensive computations.To overcome the inherent complexity, without compromisingperformance, it is suggested to employ a dynamic program-ming algorithm [11] that are based on eliminating convergingpaths. The DQ problem can be formulated as a deterministicshortest path problem, thus, optimal solution can be obtainedusing Viterbi algorithm.
C. Numerical Simulations
An inclusive set of Monte-Carlo simulations were carriedout to evaluate the performance of the proposed method. Themodel is based on typical coherent systems, as described inFig. 1. The main channel impairment considered here was thelimited bandwidth of the electrical and opto-electric compo-nents, which was modeled as a 3r d order Bessel low-pass-lter (LPF) with -3dB attenuation at 16Ghz. The transmitterconsisted of an RRC lter with roll-off factor β = 0.2, followedby a DPC linear lter. The performance of the algorithm wasmeasured by comparing the SNR at the receiver, after linearequalization with and without the DRE block, i.e. comparingthe DRE with the conventional round-off quantizer. Fig. 3illustrates the advantages of the proposed method. The gureshows the power-spectral-density (PSD) of the pulse-shapedsignal, the pre-compensated signal, the channel response andthe quantization noises, with and without the DRE for 4 bitsDACs. The simulation was performed for 64Gbaud QAM-64 transmission; The DAC was assumed to operate with 2samples-per-symbol (SPS). The figure clearly shows that theDRE shapes the quantization noise inversely to the channel
response, as opposed to the conventional quantizer, whichresults in white spectrum noise. Although the overall power ofthe noise was enhanced with the DRE, the noise was centeredat the far end of the spectrum at the expense of the lowerin-band frequencies.
− 60 − 40 − 20 0 20 40 60− 60
− 40
− 20
0
20
Frequency [GHz]
PSD
[dB
/Hz]
Pulse-shaped signalSignal after DPCChannel responseQ noise w/o DREQ noise w DRE
Fig. 3. Spectral responses of: the pulsed-shaped signal prior topre-compensation, signal after linear pre-compensation, amplituderesponse of the simulation channel, quantization noise using standardquantization and DRE shaped quantization noise.
The SNR gain, achieved by applying the DRE, is demon-strated in Fig. 4, which shows the results for QAM-64 trans-mission at 2 SPS, with varying bauds and 4-5 bit DACsresolution. The SNR was measured after applying 32 tapslinear equalizer at the receiver. The dotted line is the requiredSNR for bit-error-rate of 1e-3, which is typically considereda threshold for implementing forward-error-correction (FEC).Referring to the 4 bit quantization, ⇠8dB SNR gap can beseen between the conventional quantization and DRE basedquantization. This improvement can be leveraged to achievethe required SNR for BER of 1e-3, at more than 45Gbaud,and data rate of up to 540Gb/sec (with DP), as opposed to thestandard quantization which limits the transmission rate to lessthan 32Gbaud. For the 5 bits cases, similar SNR gain, ⇠ 8dB,was achieved. This can be used to extend the transmission rateby over 16Gbaud, i.e., from 43Gbaud to 60Gbaud, and providetotal data rate of 720Gb/s.
D. Experimental Results
The foregoing results were veried in electrical BTB andoptical BTB transmission.
For the electrical BTB, 32Gbaud QAM-64 signal wasobtained using 64Gsamp/sec DACs and ADCs [12]. RRCfilter with roll-off factor of β = 0.2 and pre-compensation
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DSP Up-scalesPhotonics
Higher Bitrate with Same Photonics
Q&A
6:50 – 6:55
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More NRZ lasers is better
than less PAMn lasers
Shigeru Kanazawa, NTT Device Innovation Center
OFC Rump Session
WDM team
June 9, 2021
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0
5
10
15
20
0 20 40 60 80 100
Op
tica
l p
ow
er
(mW
) V
olt (
V)
Current (mA)
Light
Volt
4.8
dB
2ch NRZ vs. 1ch PAM4 Laser Power (same bit rate)
PAM4 AOP = 4.8 dB + NRZ AOP
I/L and I/V characteristics of DML (L=150 μm, 25℃)
Laser power consumption
1ch PAM4 (+11 dBm):70 mA × 1.95 V = 140 mW
2ch NRZ (+6.2 dBm):25 mA × 1.37 V × 2ch = 70 mW
70 mW = ½ * 140 mWW. Kobayashi et. al., 2014 EL
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More Simple Optics = Less Power
It’s time for optics to stop being the tail on the IC dog!
Driver Laser
1ch PAM4 Tx PWR2ch NRZ Tx PWR
= ½ *Laser
Laser
Q&A
7:00 – 7:05
Driver
Driver
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Xiang Zhou
OFC Rump Session
DSP Team
June 9, 2021
Platforms, Google Inc.
How to Scale Bandwidth& Reduce Cost
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Why DSP Enables Lowest-Cost Bandwidth Scaling
● Parallel optics cost scales linearly with BW
● DSP cost scales with CMOS: Sublinear!
● Constrained component BW: DSP increases lane speed and reduces optics
per bit BOM
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CMOS always wins!
Therefore the Future is
more DSP & less Optics
Q&A
7:10 – 7:15
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• Transponder density• 2x every 2 years (50 Tbps, 100 Tbps, …)• DWDM long-haul system capacity crammed into ~10x10cm2
➔ Use massively integrated lower-speed active-optics arrays➔ No need for bleeding-speed rates or higher-order modulation
• DSP logic needs chip real estate➔ No space for sophisticated DSP blocks
• Total link cost• Fiber costs are ¢/Gbps vs. $/Gbps for transponders• Massive fiber bundles cheaper than sophisticated transponders➔ No need for high spectral efficiencies; needed in long-haul
• Total energy consumption• Minimize optical plus electrical energy consumption• Do not just count “photons/bit”➔ No power for sophisticated DSP
[FB/MSFT JDF]
Optical vs. Electrical Energy Contribution
O
EO E
O
E
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More lanes gets you there faster than the most sophisticated car!
Q&A
7:20 – 7:25
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Spectral EfficiencyRequirement in theData Center is Real
Han (Henry) Sun OFC Rump SessionDSP TeamJune 9, 2021
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• Web 2.0 Data center operators require CWDM-4 (4λ 20nm grid)
• Interoperates with lower data rates: low OpEx
• Reuses CWDM laser & optics tech: low R&D, quick time-to-market
• Enables diverse technical solutions from many suppliers: low cost
• Uncooled operation minimizes power dissipation
Spectral Efficiency (S.E.) in the Data Center
Rich literature on even higher SE signaling still with Direct Detection (DD):
KK Receivers / DMT / Asymmetric DSB DD
400G Symbol Rate!
133G Symbol Rate
High S.E. solutions are necessary at >1.6T
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Spectral Efficiency (S.E.) Requirement in the Data Center is Real
The opinions expressed in this presentation are the author’s and do not represent Infinera Corporation.
Get high SE!
HIGH SE
Q&A
7:30 – 7:35
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Slow & ParallelMinimizes Cost& Power
Chris PfistnerOFC Rump SessionWDM TeamJune 9, 2021
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Why Slow & Parallel?
▪ Great match to ASIC’s slow and wide internal bus architectures:
▪ Enable low-cost, low-power NRZ:➢ No SerDes, no FEC → Low Latency & low Power
▪ Enable massively parallel:➢ Multi-core fiber with 100s to 1000s of lanes
➢ Transmitter: Consumer micro-LEDs from high volume display industry at 1-10Gbps per lane
➢ Receiver: Mature CMOS with integrated PDs
➢ Silicon friendly MMF which is easy to align with relaxed coupling tolerances
→ Achieve economies of scale by addressing a huge market with <10m reach
CMOS XCVR w/
LEDs & PDs
ASIC
Interposer
ASICMulti-core Fiber
Interposer
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4141
Achieve 0.1pJ/bit
Avicena Confidential
Go Slow & Parallel from the Source to as far as possible …
Q&A
7:40 – 7:45
… before making life more complicated!
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Yi Cai
OFC Rump Session
DSP Team
June 9, 2021
CMOS DSP Coherent is the Smart Parallel
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CMOS reduces cost and power of DSP
Coherent lanes every year
100Gbaud Transceiver 1.6T 3.2T
NRZ
(OOK)
λ 16 DWDM 32 DWDM
N (levels) 2 2
100G I/O 16 32
Coherent
(QAM-N2)
λ 4 CWDM 4 CWDM
N (levels) 2 4
100G I/O 16 32
CMOS R&D: $ billions DSP quadrature & polarization vs. WDM lanes
CMOS DSP Coherent vs. Photonic WDM Parallel Lanes
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Obsolete NRZ truck sinks while Coherent yacht cruises along
DSP Coherent Spectral Efficiency Makes it the Smart Parallel
Q&A
7:50 – 7:55
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Audience Poll
No. Question Vote
1
Did the Optics Industry Blunder by Switching Intra-Datacenter Links from NRZ to PAM4?
Yes 75 42%
No 105 58%
2
Will More DSP like PAM6 and Coherent Follow, or Will WDM and Parallel Save the Day?
More DSP like PAM6 and Coherent 75 42%
WDM and Parallel Save the Day 105 58%
3
Which would you prefer to see more of?
Gladiator Pairs fighting 92 51%
Tao Masters teaching 88 49%
Poll
7:55 – 8:00
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Will More DSP like PAM6 Follow, or Will WDM and Parallel Return?
The Rump Session Provocateurs trust
you were entertained and enlightened